-
Indexed by:
Journal paper
-
First Author:
Wentao Dong
-
Co-author:
Wentao Dong , Youhua Wang ,Ying Zhou,Yunzhao Bai, Zhaojie Ju,Jiajie Guo, Guoying Gu, Kun Bai,Gaoxiang Ouyang , Shiming Chen ,Qin Zhang ,YongAn Huang
-
Journal:
International Journal of Intelligent Robotics and Applications
-
Document Type:
J
-
Volume:
2
-
Page Number:
313–338
-
Key Words:
Human–machine interfaces · Flexible/stretchable electronics · Tactile sensors · Biological healthy
-
Date of Publication:
2018-06-11
-
Abstract:
Human–machine interfaces (HMIs) are widely studied to understand the human biomechanics and/or physiology and the interaction between humans and machines/robots. The conventional rigid or invasive HMIs that record/send information from/to human bodies have significant disadvantages in practice for long-term, portable, and comfortable usages. To better adapt to natural soft skins, soft HMIs have been designed to deform into arbitrary shapes, and their bendable, stretchable, compressible and twistable properties offer a huge potential in future personalized applications. This paper presents a su
-
Links to published journals:
